US20070282168A1

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Publication number: US20070282168A1
Application number: US11/784,949
Authority: US
Inventors: Christopher Kaye; Dean Secrest
Original assignee: Individual
Current assignee: US Endoscopy Group Inc
Priority date: 2006-04-10
Filing date: 2007-04-10
Publication date: 2007-12-06
Also published as: WO2007120713A3; WO2007120713A2; US7967744B2

Abstract

A valve for use in irrigating, accessing and sealing the instrument channel of an endoscope is disclosed. The valve is adapted for installation onto an endoscope instrument inlet port. The valve includes a body, a flip cap, and a seal curtain. The body has an open end adapted for connection to the inlet port, interior walls defining an cavity, and an outer surface defining a valve entry port. The entry port is connected to a channel open to the cavity. The flip cap is removably connectable to the valve entry port and has a slit therethrough. The seal curtain contains a flexible cylindrical portion, and a lid at one end, and is removably insertable into the cavity. A longitudinal axis of the seal curtain in an installed position within the cavity is at an angle with respect to a longitudinal axis of the body.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS

This non-provisional application claims the benefit of U.S. Provisional Patent Application No. 60/790,721, entitled “Biopsy Inlet Valve,” filed Apr. 10, 2006, the entire disclosure of which is incorporated herein by reference, to the extent that it is not conflicting with this application.

FIELD OF THE INVENTION

The present invention relates to valves and to a biopsy inlet valve for use with the instrument channel inlet port of an endoscope.

BACKGROUND OF THE INVENTION

Endoscopes are well-known in the art and are commonly used for numerous medical procedures that involve intubation of the esophagus and gastro-intestinal tract. As such, many devices and accessory instruments have been developed that relate to the operation of an endoscope. One such device well-known in the endoscopic art field is commonly referred to as a biopsy channel inlet valve, or BCIV.

A BCIV is used to provide sealable access to the accessory instrument channel of an endoscope. In the beginning of an exemplary endoscopic procedure, the body cavity or lumen is insufflated to provide a lumen for visualization and insertion of an accessory instrument. In doing so, a positive pressure is created in the body and in the channel. The pressure is then retained or held back by use of a BCIV. Further, the valve is required to seal off an instrument passing into and through the channel. At the end of the procedure, the instrument is removed. A biopsy valve is designed with internal ridges to squeegee blood and other body fluids from the outer surface of an instrument as it is removed from the channel.

During use of these instruments, a need typically arises to irrigate the internal work site and sometimes, also the instrument channel itself. A physician's view of the internal work site can be clouded by various body fluids or debris. A clear view is important for a successful procedure. Conventionally, doctors have removed the accessory instrument, inserted a blunt instrument such as a syringe through a valve sealing an inlet port to the channel and merely sprayed water down the channel. This method has created several problems, such as for example, the valve becomes damaged, the accessory instrument must be removed during irrigation to prevent damage, and undesired time is added to the overall length of the endoscopic procedure. Further, existing valves require manual cleaning between use for disinfection.

The present invention is an improved valve for providing irrigation of the instrument channel of an endoscope. The valve provides sealable access to an inlet port of the instrument channel, is not susceptible to damage during endoscopic procedures, has increased durability over prior art designs, does not require the removal of the accessory instrument during irrigation, and reduces the time of the overall endoscope procedure by permitting remote irrigation access by a doctor or assisting nurse.

The device is made of a relatively inexpensive flexible plastic. Consequently, the device is effectively disposable after one use which eliminates the need to manually clean, flush, and dry existing valves, the threat of cross-contamination from stored valves, and the requirement for disinfection in general. Further, the risk of health worker exposure to infectious body fluid is reduced by eliminating the use of reprocessed valves that are in poor condition and susceptible to leaking

SUMMARY OF THE INVENTION

In an illustrated embodiment of the invention, a valve for providing resealable access to the instrument channel of an endoscope includes a body having an open end adapted for connection to the endoscope instrument inlet port, an internal cavity, and a valve entry port. A flip cap is removably connectable to the valve entry port. Within the cavity, a seal curtain having a flexible cylindrical portion is inserted such that a longitudinal axis of the seal curtain in an installed position within the cavity is at an angle with respect to a longitudinal axis of the body. The valve installed on the instrument port directs fluids exiting the instrument port in a direction of the cylindrical member

Further features and advantages of the invention will become apparent from the following detailed description made with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1ais a plan view of a biopsy inlet valve shown in use installed on an endoscope;

FIG. 1bis a plan view of the valve ofFIG. 1a,showing the valve in use during an endoscopic procedure;

FIG. 1cis a photograph of a valve having a generally Y-shaped internal cavity;

FIG. 2ais a cross-sectional view of the valve ofFIG. 1c,showing a seal curtain and an outlet port at an open end that are not co-axial;

FIG. 2bis a cross-sectional view of the seal curtain ofFIG. 2a;

FIG. 2cis a perspective view of the seal curtain ofFIG. 2a;

FIG. 3 is a cross-sectional view of a valve having a small diameter membrane at a valve inlet port;

FIG. 4 is a cross-sectional view of a valve having an internal flap member;

FIG. 5 is a partial cross-sectional bottom view of the valve ofFIG. 4, showing the internal flap member from the perspective of the open end of the valve;

FIG. 6 is a cross-sectional view of a valve having a flip cap with a crowned top;

FIG. 7 is a cross-sectional view of a valve having an integral flap member but without an integral tether and flip cap;

FIG. 8ais a cross-sectional view of a valve having a seal curtain inserted through an aperture on the top side of the body;

FIG. 8bis a top view of the seal curtain ofFIG. 8a,showing a half-circle circumference of a seal curtain flange;

FIG. 8cis a top view of a portion of top surface of the body ofFIG. 8a,showing a flange mounting surface;

FIG. 9 is a plan view, partially in section, of a valve having a tube connected to an externally mounted seal curtain;

FIG. 10ais a top view of a valve having additional features for ease of guidewire use and storage;

FIG. 10bis a plan view of the valve ofFIG. 10a;

FIG. 10cis a photograph of a valve having similar features as the valve ofFIG. 10a;

FIG. 11 is a cross-sectional view of a valve having a detachable tether and cap;

FIG. 12ais a plan view of a valve having two flip caps connected to the valve body by a single tether;

FIG. 12bis a top view of the valve ofFIG. 12a;

FIG. 12cis a plan view of the valve ofFIG. 12a,showing a first flip cap having a smaller aperture therethrough installed into a valve entry port;

FIG. 12dis a plan view of the valve ofFIG. 12a,showing a second flip cap having a larger aperture therethrough installed into a valve entry port;

FIG. 13ais a plan view of a valve having two flip caps connected to the valve body by a single Y-shaped tether;

FIG. 13bis a top view of another valve having two flip caps connected to the valve body by a single tether;

FIG. 14ais a top view of a sealing device having an adjustable inner diameter;

FIG. 14bis a cross-sectional view of the sealing device ofFIG. 14a;and

FIG. 15 is a schematic of a sealing device having stacked internal disks, each disk having an aperture therethrough.

DESCRIPTION OF THE INVENTION

The Detailed Description of the Invention merely describes preferred embodiments of the invention and is not intended to limit the scope of the specification or claims in any way. Indeed, the invention as described by the claims is broader than and unlimited by the preferred embodiments, and the terms in the claims have their full ordinary meaning.

Referring now to the drawings,FIG. 1ais a plan view of an irrigationbiopsy inlet valve10. A valve of this structure is shown and described in U.S. patent application Ser. No. 11/137,636, entitled “Irrigation Biopsy Inlet Valve,” filed on May 25, 2005, the entire disclosure of which is incorporated herein by reference, to the extent that it is not conflicting with this application.

Thevalve10 is used to provide sealable access to an instrument channel of anendoscope12. Thevalve10 is designed to connect to aninstrument inlet port16 of theendoscope12.FIG. 1bis another plan view of the valve illustrated inFIG. 1a,showing the valve in use during an irrigation procedure. Anendoscopic instrument18 is shown inserted through thevalve10. As shown inFIG. 1, a common 60cc syringe14 or the like can be used by an operator to flush fluids through the instrument channel of theendoscope12 in order to cleanse the body lumen.

FIG. 2 is a photograph of an embodiment of the invention. Avalve20 is shown installed onto aninstrument inlet port16 of anendoscope12. The valve is designed to proved a seal of theinlet port16 and allow a user to install and remover endoscopic instrument, and irrigate the internal instrument channel (not shown) of theendoscope12, each without removing thevalve20 from theport16.

A cross-sectional view of thevalve20 is shown inFIG. 2a.The valve is highly adaptable for use in a stored or capped position, to allow access by an instrument, or for irrigation of the endoscope instrument channel. It should be understood by those with ordinary skill in the art that a wide variety of endoscopic instruments can be used in the practice of the present invention, such as for example, snares, retrieval nets or forceps. It should also be understood by those with ordinary skill in the art that a wide variety of irrigation sources can be used in the practice of the present invention, such as for example, an electric water pump with a foot control switch.

Thevalve20 includes abody22, aflip cap24 and aseal curtain26. The seal curtain is insertable into acavity28 defined by the inner walls of the body. Theflip cap24 is held to the body by atether30. As shown, thebody22,cap24 andtether28 are integrally molded.

The cavity is exposed at anopen end32 of the body. Anannular rim34 adjacent the open end is sized for mating with a ridge on the exterior portion of a conventionalinstrument inlet port16. Thecavity28 of the body is generally Y-shaped having amain branch36 leading to theopen end32 and two secondary branches. The firstsecondary branch38 is toward avalve entry port44 and a secondsecondary branch40 in which theseal curtain26 is installed. To be discussed later in greater detail, this orientation directs fluids exiting theinstrument inlet port16 in a direction toward theseal curtain26.

Anouter surface42 of thebody22 defines avalve entry port44. The relativelylarge bore44 would allow easy access of devices to be inserted in the cavity. Theflip cap24 is removably connectable to the valve entry port. As shown in the Figures, the flip cap has a slit therethrough46. Theslit46 permits the insertion of various devices, such as for example, a guidewire at the beginning of an endoscopic procedure, needles, and irrigation tubes.

FIG. 2bis a cross-sectional view of the seal curtain illustrated inFIG. 2a.Theseal curtain26 is a component that is inserted into thecavity28 and provides additional sealing of the endoscope instrument channel, above and beyond the slit in the cap that would remain closed for the majority of the procedure. As shown, the seal curtain is inserted through theopen end32 of thebody22. The seal curtain may be a flexible injection molded plastic component. The seal curtain has a flexiblecylindrical portion50 and alid52 at one end. In the inserted position shown inFIG. 2a,the lid is distal from the open end. A bottom perspective view of theseal curtain26 is shown inFIG. 2c.

As shown inFIG. 2aand others, the three main valve components are positioned relative to each other in a confined and distinct relationship. The outlet port of thebody20 defines a longitudinal axis A₁that is neither co-axial nor parallel with a longitudinal axis A₂defined by the seal curtain in an installed position in the body. Further, the outlet port of thebody20 defines an axis A₁that is neither co-axial nor parallel with a longitudinal axis A₃defined by the inlet port of the body. It is believed this positioning of the inlet port, outlet port, and seal curtain maximizes valve performance and minimizes valve size.

Still referring toFIG. 2a,theinlet port44 of thebody22 defines a longitudinal axis A₃which is oriented at an angle a with respect to A₁. Fluid may be dispensed through the inlet end in a direction toward the endoscope. A syringe may be inserted through theflip cap aperture46 to irrigate an instrument channel of the endoscope. It is believe that an angle a of less than 90 degrees promotes flow down the instrument channel and generally improves irrigation. Other irrigation apparatus may be connected to the check valve in the practice of the present invention.

The longitudinal axis A₂of theseal curtain26 is oriented at an angle β with respect to A₁. It is believe that an angle β of between 0 and 90 degrees promotes flow of fluid exiting theinstrument inlet port16 in a direction into thecylindrical portion50. In one embodiment, angle β is equal to angle α. It should be appreciated by others with ordinary skill in the art that the angle β may be equal to, greater than, or less than, the angle α in the practice of the present invention.

FIG. 3 is a cross-sectional view of avalve60 having asmall diameter membrane62 at aside inlet port64. The small hole in the center of themembrane32 helps minimize the fluid path when small endoscopic devices are used and the thin membrane can flex and desirably deform out of the path of larger endoscopic devices.

Another embodiment of the invention is shown inFIG. 4. A cross-sectional view of avalve70 having aninternal flap member72 is shown. Theflap member42 inhibits fluid movement in a direction from theopen end32 to theinlet port44. Theflap member42 is integrally molded with thevalve body22 and extends across the access channel to the endoscope. This position acts as a wiper that further inhibits the direct flow of fluids up and out of the inlet end of the valve. It also helps keep the inserted instrument (not shown) in intimate contact with theseal curtain26, which is believed to improve the effectiveness of the curtain and the flap member. In another embodiment, the flap member may be adjacent to the inserted seal curtain to provide resistance against the seal curtain moving out of position during operation. As shown, thetether28,flip cap24,body22 andflap member72 are one integral piece constructed of flexible plastic. A cross-sectional bottom view of theinternal flap member72 from the perspective of the open end of thevalve70 is shown inFIG. 5.

FIG. 6 shows avalve80 having aflip cap82 and acorresponding locking groove84. The flip cap has a crownedtop surface86 to give it additional rigidity. The structure and size of the cap and associated locking reservoir on thevalve body22 is believed to permit devices to be inserted into and removed from the valve and that the cap itself to be substantial enough to remain successfully inserted.

FIG. 7 is a cross-sectional view of avalve90 without an integrally molded tether or flip cap.

Another embodiment of the invention is shown inFIGS. 8a,8b,8cand9. In the orientation of avalve100 shown inFIG. 8a,theseal curtain26 is inserted into the cavity through anaperture102 in theouter surface104 of the body.FIG. 8billustrates a larger sized semi-circular shapedflange106 that can be pressed against a mountingsurface108 shown inFIG. 8c.Alternatively, the flange may be attached by an adhesive or any other suitable method. The illustrated structure created more area inside the cylindrical portion of the seal curtain for retaining fluids from theinstrument inlet port16, and also reduces the likelihood that the seal curtain can be detached.

FIG. 9 shows the attachment of aninlet tube110 to anaperture112 in thelid114. The proximal end of the tube has acheck valve116 that can be utilized be used to inject a viscous substance into the cylindrical portion of the seal curtain, such as for example, a water soluble lube. It is believed this material and others will improve the sealing capability of the device by restricting fluid flow from theinstrument inlet port16 and encourage the seal curtain and other thin membranes to cling to each other, which will also inhibit flow.

Two additional user-friendly features are illustrated in valve shown inFIGS. 10a-10b.FIG. 10ais a top view of a valve having two

wings

122,124 extending from opposing sides of avalve body136. For perspective, aflip cap128 integrally molded with atether130 is shown in an installed position. Each wing is integrally molded to the valve body as shown, but it should be understood in the practice of the invention that one or both or the wings could be separate adapters that are attached to the valve body.

Thefirst wing122 includes aslot132 sized for insertion of length measuring device, such as for example, a small metal ruler. InFIG. 10b,theslot132 is on the far side of thevalve120 but asmall scale134 is shown in an installed position. Theslot132 is positioned such that the scale is oriented parallel to the inlet port of thevalve120. The ruler is useful to measure the depth insertion (or retraction) of a guidewire or other instrument used during certain endoscopic procedures. A photograph of avalve138 with a measuring device during guidewire insertion is shown inFIG. 10c.

Thesecond wing124 also has a feature that is beneficial to a user when operating a guidewire. Guidewires can be up to 180″ in length and are often used to reach locations within the GI tract that are other wise difficult to reach, such as for example, areas beyond the biliary duct. Thus, it is important to retain guidewire in a desired location so as to avoid re-insertion or loss of position in the event they are needed again. Thewing124 incorporates a plurality ofwire engaging notches136 for engagement of a guide wire. After insertion of the guidewire (not shown) into the endoscope to a desirable length, the proximal end of the guidewire can be looped in and out of thenotches136 to be held in place until needed. Three notches are shown, but it should be understood that notches of any number, size, shape or pattern can be used in the practice of the invention.

FIG. 11 shows another embodiment of the invention. In this case, areceptor groove140 has been molded on the outside of thevalve body142. Theflip cap144 is attached to aring146 by atether148. Thering146 is sized for insertion into thegroove140. The structure of theflip cap144 allows it to be added to the valve during a subsequent assembly step. By breaking the valve into two constituent parts, the materials (and their associated physical properties) can be different so that the flexibility and responsiveness of the lid and slit can be independently optimized with respect to the valve body that can be enhanced to fit snugly on the endoscopeinstrument inlet port16 and allow effective attachment of the lid during closure.

The flip cap assembly of a valve of this invention can be structured to include multiple flip caps each with an aperture therethrough. Avalve150 with such structure is shown inFIGS. 12a-12d.Afirst flip cap152 includes aconcave recess154 leading to anarrow slit156. Afirst tether portion158 connects the first flip cap to the valve body, while asecond tether portion160 connects thefirst flip cap152 to asecond flip cap164. Thesecond flip cap152 includes aconcave recess164 leading to anaperture166 of reduced diameter. As shown inFIG. 12b,thesecond tether portion160 includes a slot between theslit156 and theaperture166. Theslit156 andaperture166 are of different size and shape. It should be obvious to one with ordinary skill in the art that the size, shape and orientation of either or both may vary in the practice of the invention.

The use of thevalve150 is shown inFIGS. 12c-12d.Thefirst flip cap152 is shown inserted into the inlet port of thevalve150 inFIG. 12c.Aguidewire170 is shown inserted through theslit154. Anytime after the guidewire has been inserted to a desired length and it becomes necessary to inset a larger device into thevalve150, theslot168 advantageously allows theguidewire170 to traverse to thesecond flip cap162. When it is necessary to insert the large device, thefirst flip cap152 is opened and the guidewire is to thesecond flip cap162 which is now closed.FIG. 12dshows the resulting orientation. As a result, large devices to be easily inserted through thelarger hole166 that has been designed to seal on bigger devices. In complimentary fashion, theslit156 is designed and sized to seal on the guidewire and other smaller devices and avoids compromise by large device insertion. Two other exemplary multiple

flip cap valves

180,190 and shown inFIGS. 13a,13b,respectively. Thetether182 ofvalve180 is Y-shaped.

FIGS. 14a-14bare schematics that show another design that can improve the overall ability of the valve to create a seal and yet allow the insertion of larger diameter devices. The design includes an aperture that can be adjusted wider or narrower according to the size of the device being utilized.FIG. 14ais a top view of a sealing device having an adjustable inner diameter, andFIG. 14bis a cross-sectional view of the sealing device. Thedevice200 is position at or near the inlet port of a valve (not shown). Aninternal assembly202 within ahousing204 adjusts to the device inserted. This type of fitting is commonly referred to as Touhy Burst fitting, and is well-known to those with ordinary skill in the art of catheter devices. The fitting202 may be made to manually or automatically adjust to the diameter of the inserted device. For example, atightening mechanism62 is rotated about a central longitudinal axis, the tightening mechanism may be rotated to lock about any devices passing therethrough, such as for example, a guide wire. By rotating the tightening mechanism in an opposite direction, the seal is released.

FIG. 15 is a schematic of asealing device210 having stacked

internal disks

212,214,216,218,220. Each disk has an aperture therethrough. The apertures may vary in size, shape and orientation from disk to disk as shown or in any other pattern. Thedevice210 utilizes a can-likeouter shell222 that captures the disks. The disks cooperate, along with air gaps in-between to diffuse the pressure from the scope, to accomplish the seal around an object inserted through anaperture226 of atop surface224 of thecan222.

It should be noted that these features described can be combined in a manner not specifically addressed in order to optimize the performance of the finished product.

While several embodiments of the invention has been illustrated and described, the present invention is not to be considered limited to the precise constructions disclosed. Various adaptations, modifications and uses of the invention may occur to those skilled in the arts to which the invention relates. It is the intention to cover all such adaptations, modifications and uses falling within the scope or spirit of the annexed claims.

Claims

1. A valve for providing sealable access to an instrument channel of an endoscope via an endoscope instrument inlet port, the valve comprising:

a. a body having an open end adapted for connection to said instrument inlet port, interior walls defining a cavity, and an outer surface defining a valve entry port, said port connected to a channel open to said cavity;

b. a flip cap removably connectable to said valve entry port having a slit therethrough; and

c. a seal curtain having a flexible cylindrical portion, and a lid at one end, said seal curtain removably inserted into said cavity with said lid distal from said open end;

d. wherein a longitudinal axis of said seal curtain in an installed position within said cavity is at an angle with respect to a longitudinal axis of said body.

2. A valve ofclaim 1 wherein said cylindrical portion of said seal curtain prohibits fluid flow in the direction from said open end to said valve entry port when said seal curtain is in said installed position within said cavity.

3. A valve ofclaim 1 wherein said cylindrical portion of said seal curtain is flexible in a direction of said open end to permit insertion of a tool into said cavity when said seal curtain in said installed position within said cavity.

4. The valve ofclaim 1 wherein a fluid may be dispensed through said valve entry port to irrigate said instrument channel.

5. The valve ofclaim 1 wherein a fluid may be dispensed through said slit to irrigate said instrument channel when said flip cap is connected to said valve entry port.

6. The valve ofclaim 1 wherein said valve entry port defines a downward flow path angled less than 90 degrees from a longitudinal axis of said body.

7. The valve ofclaim 1 wherein said body is constructed of a flexible plastic.

8. The valve ofclaim 1 wherein said side entry port is sized for insertion of an endoscope instrument.

9. The valve ofclaim 1 wherein said cavity is Y-shaped having a main branch leading to said open end and two secondary branches, a first secondary branch toward said valve entry port and a second secondary branch in which said seal curtain is installed.

10. The valve ofclaim 1 wherein said seal curtain is inserted into said cavity through said open end.

11. The valve ofclaim 1 wherein said seal curtain is inserted into said cavity through an aperture in said outer surface of said body.

12. The valve ofclaim 11 wherein said seal curtain comprises a flange, wherein said flange is attached to said outer surface of said body.

13. The valve ofclaim 11 further comprising an inlet tube attached to an aperture in said lid for insertion of fluids into said cylindrical portion of said seal curtain.

14. The valve ofclaim 1 wherein said body comprises a wing having a slot sized for insertion of a length measuring device parallel to said channel.

15. The valve ofclaim 1 wherein said body comprises a wing having a plurality of wire engaging notches for engagement of a guide wire.

16. The valve ofclaim 1 wherein said flip cap is attached to a ring by a tether and said outer surface of said body defines a groove, wherein said ring is insertable into said groove.

17. The valve ofclaim 1 comprises a second flip cap, said second flip cap removably connectable to said valve entry port and having a second slit therethrough, wherein said second slit is not equal in size to said slit of said first flip cap.

18. The valve ofclaim 17 wherein said first flip cap and said second flip cap are attached to said body by a single tether.

19. The valve ofclaim 18 wherein said single tether is Y-shaped.

20. The valve ofclaim 18 wherein said first slit and said second slit are connected by a slot disposed within said single tether.

21. The valve ofclaim 1 wherein said slit comprises an aperture of adjustable diameter.

22. The valve ofclaim 1 further comprising a sealing assembly having a plurality of disks in a stacked orientation within an outer shell, each of said disks having an aperture therethrough.

23. A valve for providing sealable access to an instrument channel of an endoscope via an endoscope instrument inlet port, the valve comprising:

b. a flip cap removably connectable to said valve entry port having a slit therethrough;

c. a seal curtain having a flexible cylindrical portion, and a lid at one end, said seal curtain removably inserted into said cavity with said lid distal from said open end; and

d. a flap member mounted to said interior walls of said body and extending into said cavity.

24. The valve ofclaim 23 wherein said flap member inhibits fluid movement in a direction from said instrument channel to said valve inlet port.

25. The valve ofclaim 23 wherein said flap member directs fluid movement in a direction from said instrument channel into said cylindrical portion of said seal curtain.

26. The valve ofclaim 23 wherein said flap member extends into said cavity at a position between said seal curtain and said open end.

27. The valve ofclaim 23 wherein a longitudinal axis of said seal curtain in an installed position within said cavity is at an angle with respect to a longitudinal axis of said body.

28. The valve ofclaim 23 wherein said body, said flip cap and said flap member are one integral piece.

29. A valve comprising:

a. a flexible plastic body having an open end, interior walls defining a cavity, and an outer surface defining a valve entry port, said port connected to a channel open to said cavity and said cavity including an annular groove adjacent said open end;

b. a cap and tether integral to said body, said cap removably connectable to said valve entry port having a slit therethrough;

d. a flap member integral to said interior walls of said body and extending into said cavity at a position between said seal curtain and said open end;

e. wherein a longitudinal axis of said seal curtain in an installed position within said cavity is at an angle with respect to a longitudinal axis of said body.

30. The plastic valve ofclaim 29 wherein said body comprises a wing having a slot sized for insertion of a length measuring device parallel to said channel.

31. The plastic valve ofclaim 29 wherein said body comprises a wing having a plurality of wire engaging notches for storage of a guide wire.

32. The valve ofclaim 30 wherein said cavity is Y-shaped having a main branch adjacent said open end and two secondary branches, a first secondary branch adjacent said valve entry port and a second secondary branch in which said seal curtain is installed.